Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis

Kartik Bhamidipati; Alexa B.R. McIntyre; Shideh Kazerounian; Gao Ce; Soon W. Wong; Miles Tran; Sean A. Prell; Rachel Lau; Vikram Khedgikar; Christopher Altmann; Annabelle Small; Roopa Madhu; Sonia R. Presti; Ksenia S. Anufrieva; Philip E. Blazar; Jeffrey K. Lange; Jennifer A. Seifert; Accelerating Medicines Partnership RA/SLE Network; Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM); Colorado Interdisciplinary Joint Biology Program (CUIJBP) Consortium; Larry W. Moreland; Adam P. Croft; Melanie H. Smith; Laura T. Donlin; Myles J. Lewis; Anna H. Jonsson; Costantino Pitzalis; Ranjeny Thomas; Ellen M. Gravallese; Michael B. Brenner; Ilya Korsunsky; Mihir D. Wechalekar; Kevin Wei

doi:10.1038/s41590-025-02386-2

Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis

Kartik Bhamidipati, Alexa B.R. McIntyre, Shideh Kazerounian, Gao Ce, Soon W. Wong, Miles Tran, Sean A. Prell, Rachel Lau, Vikram Khedgikar, Christopher Altmann, Annabelle Small, Roopa Madhu, Sonia R. Presti, Ksenia S. Anufrieva, Philip E. Blazar, Jeffrey K. Lange, Jennifer A. Seifert, Accelerating Medicines Partnership RA/SLE Network, Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM), Colorado Interdisciplinary Joint Biology Program (CUIJBP) ConsortiumLarry W. Moreland, Adam P. Croft, Melanie H. Smith, Laura T. Donlin, Myles J. Lewis, Anna H. Jonsson, Costantino Pitzalis, Ranjeny Thomas, Ellen M. Gravallese, Michael B. Brenner, Ilya Korsunsky, Mihir D. Wechalekar, Kevin Wei

College of Medicine and Public Health

Research output: Contribution to journal › Article › peer-review

Abstract

Treatment-refractory rheumatoid arthritis (RA) is a major unmet need, and the underlying mechanisms are poorly understood. To identify molecular determinants of refractory RA, we performed spatial transcriptomic profiling on synovial tissue biopsy samples taken 6 months before and after treatment. In the baseline biopsy samples of non-remitting patients, we identified increased fibrogenic signaling within vascular tissue niches, marked by high fibroblast COMP expression. We uncovered a role of endothelial-derived Notch signaling as an upstream regulator of fibroblast transforming growth factor beta (TGFβ) signaling via its opposing ability to induce TGFβ isoform expression while suppressing TGFβ receptors, generating a proximal-to-distal gradient of TGFβ sensitivity that can be altered with disruption of steady-state Notch signaling. In posttreatment biopsy samples, we observed significant immune depletion with expansion of fibrogenic niches, a process that can be reversed by inhibition of Notch and TGFβ signaling in RA patient-derived organoids. Collectively, our data implicate targeting of TGFβ signaling to prevent exuberant synovial tissue fibrosis as a potential therapeutic strategy for refractory RA.

Original language	English
Number of pages	37
Journal	Nature Immunology
DOIs	https://doi.org/10.1038/s41590-025-02386-2
Publication status	E-pub ahead of print - 15 Jan 2026

Keywords

Fluorescence in situ hybridization
Rheumatoid arthritis

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Final published versionFinal published version, 21.6 MBLicence: CC BY-NC-ND

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Bhamidipati, K., McIntyre, A. B. R., Kazerounian, S., Ce, G., Wong, S. W., Tran, M., Prell, S. A., Lau, R., Khedgikar, V., Altmann, C., Small, A., Madhu, R., Presti, S. R., Anufrieva, K. S., Blazar, P. E., Lange, J. K., Seifert, J. A., Accelerating Medicines Partnership RA/SLE Network, Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM), ... Wei, K. (2026). Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis. Nature Immunology. Advance online publication. https://doi.org/10.1038/s41590-025-02386-2

@article{3e0759ebcd234bc4adefbcb926a454b3,

title = "Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis",

abstract = "Treatment-refractory rheumatoid arthritis (RA) is a major unmet need, and the underlying mechanisms are poorly understood. To identify molecular determinants of refractory RA, we performed spatial transcriptomic profiling on synovial tissue biopsy samples taken 6 months before and after treatment. In the baseline biopsy samples of non-remitting patients, we identified increased fibrogenic signaling within vascular tissue niches, marked by high fibroblast COMP expression. We uncovered a role of endothelial-derived Notch signaling as an upstream regulator of fibroblast transforming growth factor beta (TGFβ) signaling via its opposing ability to induce TGFβ isoform expression while suppressing TGFβ receptors, generating a proximal-to-distal gradient of TGFβ sensitivity that can be altered with disruption of steady-state Notch signaling. In posttreatment biopsy samples, we observed significant immune depletion with expansion of fibrogenic niches, a process that can be reversed by inhibition of Notch and TGFβ signaling in RA patient-derived organoids. Collectively, our data implicate targeting of TGFβ signaling to prevent exuberant synovial tissue fibrosis as a potential therapeutic strategy for refractory RA.",

keywords = "Fluorescence in situ hybridization, Rheumatoid arthritis",

author = "Kartik Bhamidipati and McIntyre, {Alexa B.R.} and Shideh Kazerounian and Gao Ce and Wong, {Soon W.} and Miles Tran and Prell, {Sean A.} and Rachel Lau and Vikram Khedgikar and Christopher Altmann and Annabelle Small and Roopa Madhu and Presti, {Sonia R.} and Anufrieva, {Ksenia S.} and Blazar, {Philip E.} and Lange, {Jeffrey K.} and Seifert, {Jennifer A.} and {Accelerating Medicines Partnership RA/SLE Network} and {Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM)} and {Colorado Interdisciplinary Joint Biology Program (CUIJBP) Consortium} and Seidl, {Adam J.} and Leversedge, {Fraser J.} and Dayton, {Michael R.} and Frank, {Rachel M.} and Hogan, {Craig A.} and Daniel Moon and Ackert-Bicknell, {Cherl L.} and Holers, {V. Michael} and Carry, {Patrick M.} and Terrin Geohring and Melissa Griffith and Clauw, {Andrew D.} and Clay, {Michael R.} and Zuscik, {Michael J.} and Moreland, {Larry W.} and Croft, {Adam P.} and Smith, {Melanie H.} and Donlin, {Laura T.} and Lewis, {Myles J.} and Jonsson, {Anna H.} and Costantino Pitzalis and Ranjeny Thomas and Gravallese, {Ellen M.} and Brenner, {Michael B.} and Ilya Korsunsky and Wechalekar, {Mihir D.} and Kevin Wei",

year = "2026",

month = jan,

day = "15",

doi = "10.1038/s41590-025-02386-2",

language = "English",

journal = "Nature Immunology",

issn = "1529-2908",

publisher = "Nature Research",

}

Bhamidipati, K, McIntyre, ABR, Kazerounian, S, Ce, G, Wong, SW, Tran, M, Prell, SA, Lau, R, Khedgikar, V, Altmann, C, Small, A, Madhu, R, Presti, SR, Anufrieva, KS, Blazar, PE, Lange, JK, Seifert, JA, Accelerating Medicines Partnership RA/SLE Network, Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM), Colorado Interdisciplinary Joint Biology Program (CUIJBP) Consortium, Moreland, LW, Croft, AP, Smith, MH, Donlin, LT, Lewis, MJ, Jonsson, AH, Pitzalis, C, Thomas, R, Gravallese, EM, Brenner, MB, Korsunsky, I, Wechalekar, MD & Wei, K 2026, 'Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis', Nature Immunology. https://doi.org/10.1038/s41590-025-02386-2

TY - JOUR

T1 - Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis

AU - Bhamidipati, Kartik

AU - McIntyre, Alexa B.R.

AU - Kazerounian, Shideh

AU - Ce, Gao

AU - Wong, Soon W.

AU - Tran, Miles

AU - Prell, Sean A.

AU - Lau, Rachel

AU - Khedgikar, Vikram

AU - Altmann, Christopher

AU - Small, Annabelle

AU - Madhu, Roopa

AU - Presti, Sonia R.

AU - Anufrieva, Ksenia S.

AU - Blazar, Philip E.

AU - Lange, Jeffrey K.

AU - Seifert, Jennifer A.

AU - Accelerating Medicines Partnership RA/SLE Network

AU - Accelerating Medicines Partnership: Autoimmune and Immune-Mediated Diseases Network (AMP-AIM)

AU - Colorado Interdisciplinary Joint Biology Program (CUIJBP) Consortium

AU - Seidl, Adam J.

AU - Leversedge, Fraser J.

AU - Dayton, Michael R.

AU - Frank, Rachel M.

AU - Hogan, Craig A.

AU - Moon, Daniel

AU - Ackert-Bicknell, Cherl L.

AU - Holers, V. Michael

AU - Carry, Patrick M.

AU - Geohring, Terrin

AU - Griffith, Melissa

AU - Clauw, Andrew D.

AU - Clay, Michael R.

AU - Zuscik, Michael J.

AU - Moreland, Larry W.

AU - Croft, Adam P.

AU - Smith, Melanie H.

AU - Donlin, Laura T.

AU - Lewis, Myles J.

AU - Jonsson, Anna H.

AU - Pitzalis, Costantino

AU - Thomas, Ranjeny

AU - Gravallese, Ellen M.

AU - Brenner, Michael B.

AU - Korsunsky, Ilya

AU - Wechalekar, Mihir D.

AU - Wei, Kevin

PY - 2026/1/15

Y1 - 2026/1/15

N2 - Treatment-refractory rheumatoid arthritis (RA) is a major unmet need, and the underlying mechanisms are poorly understood. To identify molecular determinants of refractory RA, we performed spatial transcriptomic profiling on synovial tissue biopsy samples taken 6 months before and after treatment. In the baseline biopsy samples of non-remitting patients, we identified increased fibrogenic signaling within vascular tissue niches, marked by high fibroblast COMP expression. We uncovered a role of endothelial-derived Notch signaling as an upstream regulator of fibroblast transforming growth factor beta (TGFβ) signaling via its opposing ability to induce TGFβ isoform expression while suppressing TGFβ receptors, generating a proximal-to-distal gradient of TGFβ sensitivity that can be altered with disruption of steady-state Notch signaling. In posttreatment biopsy samples, we observed significant immune depletion with expansion of fibrogenic niches, a process that can be reversed by inhibition of Notch and TGFβ signaling in RA patient-derived organoids. Collectively, our data implicate targeting of TGFβ signaling to prevent exuberant synovial tissue fibrosis as a potential therapeutic strategy for refractory RA.

AB - Treatment-refractory rheumatoid arthritis (RA) is a major unmet need, and the underlying mechanisms are poorly understood. To identify molecular determinants of refractory RA, we performed spatial transcriptomic profiling on synovial tissue biopsy samples taken 6 months before and after treatment. In the baseline biopsy samples of non-remitting patients, we identified increased fibrogenic signaling within vascular tissue niches, marked by high fibroblast COMP expression. We uncovered a role of endothelial-derived Notch signaling as an upstream regulator of fibroblast transforming growth factor beta (TGFβ) signaling via its opposing ability to induce TGFβ isoform expression while suppressing TGFβ receptors, generating a proximal-to-distal gradient of TGFβ sensitivity that can be altered with disruption of steady-state Notch signaling. In posttreatment biopsy samples, we observed significant immune depletion with expansion of fibrogenic niches, a process that can be reversed by inhibition of Notch and TGFβ signaling in RA patient-derived organoids. Collectively, our data implicate targeting of TGFβ signaling to prevent exuberant synovial tissue fibrosis as a potential therapeutic strategy for refractory RA.

KW - Fluorescence in situ hybridization

KW - Rheumatoid arthritis

UR - http://www.scopus.com/inward/record.url?scp=105027758350&partnerID=8YFLogxK

U2 - 10.1038/s41590-025-02386-2

DO - 10.1038/s41590-025-02386-2

M3 - Article

C2 - 41540265

AN - SCOPUS:105027758350

SN - 1529-2908

JO - Nature Immunology

JF - Nature Immunology

ER -

Spatial patterning of fibroblast TGFβ signaling underlies treatment resistance in rheumatoid arthritis

Abstract

Keywords

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